KR100465734B1 - Multifunctional power control unit of computer and its control method - Google Patents

Abstract

The present invention relates to a multi-function power control unit and a control method of the computer (PC) for performing various functions using one power control button, and the present invention relates to a system. An operation determination unit for performing a push / release operation by a user to determine power supply stop or power saving mode progress while the power supply is instructed and the state of the operation determination unit is continuously monitored A control unit for measuring the pressing time when the result is in the pressing state and comparing the pressing time with the setting time, and a power control unit for stopping power supply to the system when the pressing time is longer than the setting time according to the result of the controlling unit. And when the pressing time is less than or equal to a set time according to the result of the controller. Is composed of a power control unit consisting of a power saving mode execution unit for performing a power saving mode and a power control method using the same, thereby providing power to the system with a single power control button and at the same time turning off the power in the power supply state or The power saving mode is performed to reduce the number of buttons and to provide an effect of preventing data loss due to the power off of the system due to an incorrect operation of the power button.

Description

Multifunctional power control unit of computer and its control method

The present invention relates to a power supply and a power saving control device for turning on / off the power of a system or performing a power saving mode in a computer, and in particular, to supply power to the system using a single power control button. At the same time, the present invention relates to a multi-function power control unit and a control method of a computer which can reduce the number of buttons while the multi-function is performed by turning off the power or proceeding a power saving mode in a power supply state.

The power supply and power saving control unit of a conventional computer is provided with a power button for simply turning on / off the power of the system and a power saving button for reducing unnecessary power consumed in the system.

Referring to FIG. 1, the conventional power supply control unit will be described in more detail. When a user sends a power control signal, that is, a high pulse as shown in FIG. Transistor Q1, which is inverted by a pulse, and a power supply PWR for supplying power to the system by the on operation of the transistor Q1.

Here, unexplained reference numerals R1 and R2 denote resistance, and reference numeral GND denotes ground, that is, ground.

Referring to the operation of the power supply and power saving control unit of a conventional computer configured as described above are as follows.

First, when a user sends a power control signal to the power control unit by using a power button by a remote control or a manual operation to turn on the system, the power supply unit PWR supplies power to each system according to the power control signal. Done.

That is, when the power control signal is input to the input terminal of the transistor Q1 as shown in FIG. 1B by the high pulse, the transistor Q1 is turned on to supply the power supply signal inverted from the high pulse to the low pulse. It outputs to (PWR), so power is supplied to the system.

Next, the user pushes the power saving button when it is determined that unnecessary power is being consumed in the system when the power is supplied. Then, the BIOS receives the power saving control signal according to the push operation of the power saving button and changes the clock of the system to zero or a predetermined low frequency. Therefore, the power consumed in the system according to the change of the clock can be reduced.

However, since the power and power saving control unit of a conventional computer performs only a single function corresponding to each button by using each power button or power saving button, a plurality of buttons are required. There is a problem that the occupancy rate occupied by the button is increased.

In addition, the power supply and power saving control unit of the conventional computer has a problem in that various data may be lost when the power is turned off due to a wrong operation of the power button of the user while the system is turned on.

The present invention has been made to solve the above problems of the prior art, the object is to turn on / off the power using a single power control button at the same time to go to the power saving mode to perform a number of functions, the button of the system The present invention provides a power control unit of a computer and a method of controlling the same, which can prevent data loss due to a power off of a system due to an incorrect operation of a power button while the number thereof is reduced.

In order to solve the above problems, the multi-function power control apparatus of the computer of the present invention instructs the system to supply power and simultaneously press / release by the user so that the power supply stops or the power saving mode is determined while the power is being supplied. A control unit which continuously monitors the state of the operation determination unit to be performed and the state of the operation determination unit to measure the pressing time when the monitored result is in the pressing state, and compares the pressing time and the set time; The power control unit is configured to stop supplying power to the system when the pressing time is longer than the preset time, and the power saving mode execution unit is configured to perform a power saving mode when the pressing time is less than the preset time according to the result of the controller. It is done.

In addition, the multi-function power control method of the computer of the present invention, the first process of supplying power to the system when the power control key is input while the power is off, and continuously monitoring the power control key according to the monitored result A second process of measuring a time duration when the power control key is pressed by a user in a power supply state, a time duration of pressing the pressed state, and a third process of comparing a press time measured in the second process with a set time; A fourth step of stopping power supply when the comparison result of the third step is longer than the preset time; and a fifth step of proceeding to a power saving mode when the comparison time of the third step is less than the preset time Characterized in that made.

Hereinafter, an embodiment of a power control unit and a control method of a computer of the present invention will be described with reference to the accompanying drawings.

As shown in Figures 2a and 2b, the multi-function power control apparatus for a computer according to the present invention instructs the power supply to the system by the user's push / release operation and at the same time stop the power supply when the power is being supplied. Or a switching means 10 for performing an on / off operation to proceed to a power saving mode, a timer (not shown) for measuring an on-operation holding time when the switching means 10 is on, and the switching means. In order to prevent the on / off operation of 10 from being directly connected to the power off, a button checker 20 outputting a power control signal by comparing a time measured by the timer (not shown) with a set time. And an operation control means 30 which receives the power control signal output from the button checker 20 and outputs an operation control signal so that the current operation state is kept delayed, and outputted from the operation control means 30. The first transistor Q1 is turned on and off according to an operation control signal, and the power supply control means 40 is configured to supply power to the system according to the on / off operation of the first transistor Q1.

In particular, the power supply control means 40 includes a second transistor Q2 which performs operations opposite to each other by an output signal according to an on / off operation of the first transistor Q1.

Here, in FIG. 2A, reference numerals R1, R2, R3, and R4 are resistors, reference numerals C1 are capacitors, reference numerals D1 are diodes, and reference numerals NG1, NG2, and NG3 are NOT gates. And reference numeral GND denotes ground. Further, reference numerals A, B, C, D, E, and F denote respective node points at which signal levels change.

Looking at the operation of the multi-function power control unit of the computer of the present invention with reference to the above configuration as follows.

First, when the user presses a power control button (not shown) to supply power to the system, the switching means 10 is turned on to output a high pulse. Therefore, the output level of the switching means 10, that is, the signal level at the point A, becomes a high level, and the high pulse at the point A is applied to each of the nat gates NG1, NG2, and NG3 to invert the signal. Is continuously transmitted, and the signal level at points B and C is inverted at a high level, at a low level at the point B, and at a low level at the C point, to become a high level.

In this case, a low pulse is input to the button checker 20 connected to the point B, and the button checker 20 always controls the operation of the low pulse at the input terminal of the operation control means 30 when the system is on. Outputs a signal so that the power supply is continuous.

At this time, the operation control signal is to control the output of the operation control means 30 to the general purpose output (General Purpose Output), in particular, the operation control means 30 is a flip-flop suitable to delay and maintain the current operation state Use (flip-flop). Among the flip-flops, it is preferable to use a D-flip-flop 30 '.

On the other hand, the output terminal of the de-flip-flop 30 'outputs a low pulse to the input terminal of the first transistor Q1, so that the signal level at the input terminal of the first transistor Q1, that is, the point D, has a low level. Thus, the first transistor Q1 is turned off, and a high pulse is output at the output terminal thereof.

The second transistor Q2 is turned on because the signal level at the input side of the power supply control means 40, that is, the point E, becomes high due to the off operation of the first transistor Q1. The power supply signal output from the output terminal of Q2, i.e., the signal level at point F is inverted and becomes the low level, so that power is supplied to the system.

When power is supplied to the system as described above, the button checker 20 continuously monitors whether the user presses the power control button (not shown).

When the power control button (not shown) is pressed by the monitoring result, the timer maintains the on operation of the switching means 10 due to the pressing operation of the power control button (not shown). Time will be measured.

Accordingly, the button checker 20 compares the pressing time of the power control button (not shown) measured by the timer (not shown) with a predetermined setting time, and the de-flip when the pressing time is longer than the setting time. Power-off the power supply control means 40 to stop the power supply by controlling the output of the flop 30 ', and if the pressing time is less than the set time to inform the BIOS (BIOS) power saving mode Let it go

In addition, the power control method of the computer of the present invention, as shown in Figure 3, the power is supplied to the system when the power control key operated by the user to determine the on / off state of the power in the system off state The power control key is pressed by the monitored result by continuously monitoring the state of the power control key in a state in which power is supplied as a result of the first process S1 of supplying and the first process S1. In the case of a state, the second process (S2) of measuring the time duration of the pressing state, a third process (S3) of comparing the pressing time and the set time measured in the second process (S2), and the third Power saving mode when the comparison result of step S3 is the fourth time step S4 of stopping the power supply when the pressing time is longer than the set time and the comparison time of the third step S3 is less than the setting time. Process 5 to proceed to (S5) It consists of.

Referring to the operation of the multi-function power control method of the computer as described above, first, in the first step (S1), when the power control key is input while the system is turned off, the switching means 10 is turned on and accordingly Power will be supplied.

Next, in the second process S2, the power control key is always monitored while the power supply is continuously supplied to the system through the first process S1, and the monitored result is transmitted to the user. When pressed by a timer (not shown), the time duration for which the pressed state lasts is measured.

Thereafter, the result measured by the timer (not shown) in the second process S2 is compared with the pressing time and a predetermined set time through the button checker 20 in the third process S3. According to the result, the output of the de-flip flop 30 'is controlled, and in the fourth process S4, when the pressing time is longer than the set time according to the result compared in the third process S3, the power supply control means. The output of 40 is controlled to stop the power supply.

On the other hand, in the fifth process S5, when the pressing time is less than the set time according to the result compared in the third process S3, unnecessary power consumed by the system in the BIOS after being switched to the suspend mode. To save power.

The multi-function power control unit and control method of the computer of the present invention as described above to perform a power-off or power saving mode by using a single power control button, it is possible to perform a number of functions with one button to reduce the number of buttons At the same time, there is an effect that data is not lost by preventing the power off of the system due to an incorrect operation of the power control button.

Figure 1a is a view showing a power control unit of a computer according to the prior art,

FIG. 1B is a diagram illustrating signal levels input and output to and from the transistor of FIG. 1A;

Figure 2a is a diagram showing a multifunction power control unit of a computer according to the present invention,

FIG. 2B is a view showing signal levels varying at each node point in sequence according to the flow of signals in FIG. 2A;

Figure 3 is a flow chart illustrating a multi-function power control method of a computer according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: switching means 20: button checker

30: operation control means 30 ': flip-flop

40: power supply control means PWR-ON: power control signal

PWR-0N #: Power supply signal R1, R2, R3, R4: Resistance

C1: Capacitor D1: Diode

Q1, Q2: first and second transistors GPO: general purpose output signal

GND: Ground A, B, C, D, E, F: Each node point

Claims (3)

The operation decision unit which instructs the power supply to the system and the pressing / release operation is performed by the user to determine whether to stop the power supply or to proceed to the power saving mode while the power is being supplied, and continuously monitors the state of the operation determination unit. A control unit which measures the pressing time when the monitored result is in a pressing state, compares the pressing time and the setting time, and controls the system according to the comparison result; and the pressing time is set according to the comparison result of the control unit. In this case, a power control unit for stopping power supply to the system and a power saving mode execution unit configured to perform a power saving mode when the pressing time is less than a preset time according to a comparison result of the control unit. Unit. The method of claim 1, The control unit includes a timer (Timer) for measuring the time that the operation state is pressed by the user is pressed by the user to compare with the set time (Timer). The first process of supplying power to the system when the power control key is input while the power is turned off, and continuously monitoring the power control key, and the power control key is operated by the user in the power supply state according to the monitored result. The second time of measuring the time that the pressing state is maintained when pressed, the third process of comparing the pressing time and the set time measured in the second process, the pressing time is the set time comparison result If the above is the fourth step of stopping the power supply, and if the comparison time of the third step is a multi-function power control method of the computer, characterized in that it comprises a fifth step of proceeding to the power saving mode when the pressing time is less than the set time.